Epson S5U1C6F632T1, SVT6F632, S5U1C6F632T2 Hardware Manual

CMOS 4-BIT SINGLE CHIP MICROCOMPUTER

S5U1C6F632T1/T2
(SVT6F632)

Hardware Manual

(Software eValuation Tool for S1C6F632)

NOTICE

No part of this material may be reproduced or duplicated in any form or by any means without the written permission of Seiko Epson.
Seiko Epson reserves the right to make changes to this material without notice. Seiko Epson does not assume any liability of any kind
arising out of any inaccuracies contained in this material or due to its application or use in any product or circuit and, further, there is no
representation that this material is applicable to products requiring high level reliability, such as medical products. Moreover, no license
to any intellectual property rights is granted by implication or otherwise, and there is no representation or warranty that anything made in
accordance with this material will be free from any patent or copyright infringement of a third party. This material or portions thereof may
contain technology or the subject relating to strategic products under the control of the Foreign Exchange and Foreign Trade Law of
Japan and may require an export license from the Ministry of Economy, Trade and Industry or other approval from another government
agency.

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PC/AT and IBM are registered trademarks of International Business Machines Corporation, U.S.A.
All other product names mentioned herein are trademarks and/or registered trademarks of their respective owners.

© SEIKO EPSON CORPORATION 2009

Configuration of product number

Tx : Reference board

Table of Contents

Table of Contents

1. Overview............................................................................................................................................1

1.1 Features

1.2 Package contents

2. Component Names and Function

2.1 Component names

2.2 Component functions

2.3 Board dimensional diagram

2.3.1 Board dimensions

2.3.2 LCD p

2.4 Main components

3. Block Diagram

4. Operating Configuration and S

4.1 S

tandalone operation (S5U1C6F632T1) .................................................................................. 15

.....................................................................................................................................3

.......................................................................................................................4

s .................................................................................................. 5

.....................................................................................................................5

..................................................................................................................7

........................................................................................................9

..............................................................................................................9

anel dimensions ....................................................................................................10

.....................................................................................................................12

.................................................................................................................................13

tartup Procedure......................................................................... 15

4.2 In-circuit emulator debugging operations (S5U1C6F632T2).....................................................16

5. Connecting the Ports to Peripher

6. Switch Input (Shared Input/Output Ports)

7. Temperature/Humidity Measurem

8. LCD Display (LCD Dri

ver)...............................................................................................................21

al Circuits.................................................................................17

.....................................................................................19

ent (R/F Converter).................................................................20

9. Pressure Sensor (Serial Interface)

10. Buzzer (Sound Gen

11. Illumination Sensor

erator) ........................................................................................................... 24

.......................................................................................................................25

................................................................................................22

12. External Interface..........................................................................................................................26

12.1 USB-Serial on Board W

12.2 Exp

12.3 Exp

ansion connector (CN2)......................................................................................................29

ansion connector implementation pattern (CN3) ................................................................ 30

12.4 ICE connector (S5U1C6F632T2)

Appendix A Consumption Current Measurement Method

riter (S5U1C88000W4) connector (CN1) ............................................ 28

..............................................................................................31

............................................................37

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON i

1. Overview

1. Overview

The S5U1C6F632T1/T2 (SVT6F632: Software eValuation Tool for S1C6F632) are evaluation boards for the S1C6F632 single-chip
microcomputer made by Seiko Epson. These boards feature a circuit structure designed for the Weather Center, which is an example
of one of S1C6F632’s applications. The S1C6F632’s internal circuit functions can drive a 48 seg. x 32 com LCD, measure
temperature and humidity, and produce a buzzer output. Equipped with an external pressure sensor and an illumination sensor, the
S5U1C6F632T1/T2 boards provide power-saving control based on weather forecasts and illumination intensity.

The SVT6F632 comes with two types of boards: S5U1C6F632T1 and S5U1C6F632T2. The S5U1C6F632T1 is capable of
standalone operations, while the S5U1C6F632T2 can connect to the In-Circuit Emulator (ICE63: S5U1C63000H) for software
debugging. Each board is provided with an expansion connector to allow clients to connect custom boards.

Figure 1.1 External view of S5U1C6F632T1

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 1

1. Overview

Figure 1.2 External view of S5U1C6F632T2

2 EPSON S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al

1.1 Features

 S5U1C6F632T1

1) CPU S1C6F632 (mask option specification: Standard Type B)

2) Input power supply voltage +3.0 V(DC), supplied by coin cell (CR2032) or external power source (+5.0 V)

3) CPU clock OSC1: 32.768 Hz (crystal oscillator), OSC3: 4 MHz (ceramic oscillator)

4) Functions/devices  Reset switch
 USB-Serial on Board Writer connector (CN1)
 Expansion connector and board pattern (CN2, CN3)
 Switch input (4 keys)
 Temperature and humidity sensors
 Pressure sensor
 Illumination sensor
 Piezo buzzer

1. Overview

 STN LCD panel (128 seg. x 32 com, black and white)
* Effective display area: 48 seg. x 32 com

 S5U1C6F632T2

1) CPU S1C6F632 (operated by ICE63)

2) Input power supply voltage +3.3 V(DC), supplied from ICE63 through I/O cable

3) CPU clock OSC1: 32.768 Hz, OSC3: 4 MHz (based on oscillation frequency adjustment on ICE63’s
internal peripheral circuit board)

4) Functions/devices  Reset switch

 Expansion connector and board pattern (CN2, CN3)
 Switch input (4 keys)
 Pressure sensor
 Illumination sensor
 Piezo buzzer
 STN LCD panel (128 seg. x 32 com, black and white)
* Effective display area: 48 seg. x 32 com

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 3

1. Overview

1.2 Package contents

The S5U1C6F632T1/T2 package contains the following items.

 S5U1C6F632T1

(1) Board (main unit)............................................................................................................. 1

(2) Coin cell (CR2032/3.0 V)................................................................................................ 1

(3) External power cable........................................................................................................1

(4) Warranty card........................................................................ 1 in English & 1 in Japanese

(5) Precautions............................................................................ 1 in English & 1 in Japanese

(6) Manual download instructions.............................................. 1 in English & 1 in Japanese

 S5U1C6F632T2

(1) Board (main unit, double-board configuration)................................................................ 1

(2) Warranty card........................................................................ 1 in English & 1 in Japanese

(3) Precautions............................................................................ 1 in English & 1 in Japanese

(4) Manual download instructions.............................................. 1 in English & 1 in Japanese

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2. Component Names and Functions

2. Component Names and Functions

2.1 Component names

The component names and functions are given below.

 S5U1C6F632T1

(2) External power
supply connector

(1) Power supply input
selector switch

(9) VSS pin

LCD panel

(9) VDD pin

(4) Power switch

Push-on switches

(7) Reset switch

(6) Expansion
connector

S1C6F632

(5) USB-Serial on Board Writer
connector

Temperature sensor

Pressure sensor

(6) Expansion connector
implementation pattern

Piezo buzzer

Humidity sensor

(8) Power supply
jumper switch for
S1C6F632

Illumination
sensor

Figure 2.1.1 Names of components mounted on the upper side of S5U1C6F632T1

(3) Coin cell
holder

Figure 2.1.2 Names of components mounted on the underside of the S5U1C6F632T1

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 5

2. Component Names and Functions

 S5U1C6F632T2

(1) ICE connectors (LCD)

(2) Reset switch

(3) Expansion
connector

(1) ICE connectors (I/O)

Piezo buzzer

LCD panel

Pressure sensor

Push-on switches

(3) Expansion connector
implementation pattern

Figure 2.1.3 Names of components mounted on the upper side of S5U1C6F632T2

Illumination sensor

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2. Component Names and Functions

2.2 Component functions

 S5U1C6F632T1

(1) Power supply input selector switch

This jumper switch (JP2) is used to select the method of power supply. The S5U1C6F632T1 board can operate on a coin cell
or external power supply. When a coin cell is used, set this switch to “B.” To use an external power source, set the switch to
“E.”

Figure 2.2.1 (a) Switch setting for use of coin cell Figure 2.2.1 (b) Switch setting for use of external power supply

(2) External power supply connector

This connector is used to provide a stabilized power supply from an external source. Use the provided power cable to supply
power (5.0 V10%).

(3) Coin cell holder

The coin cell (CR2032) holder is located on the underside of the board. See the instructions below for installing/removing the
coin cell.

1) Insert the coin cell.

2) Push down until you
hear a click.

1) Press down on the center tab of
the coin cell holder.

Figure 2.2.2 Installing the coin cell Figure 2.2.3 Removing the coin cell

Caution!
Make sure that the positive side of the coin cell faces up when installing it into the coin cell holder located on the underside of
the board.

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 7

2. Component Names and Functions

(4) Power switch

Slide this switch to supply power to the board. When the power supply input selector switch is set to external power supply,
the board receives power from the external power supply connector. When the selector is set to coin cell, the board receives
power from the coin cell.

(5) USB-Serial on Board Writer connector

This connector is used to write programs/data to the internal flash memory of the S1C6F632. Connect the USB-Serial on
Board Writer (S5U1C88000W4) to this connector and transfer programs/data from a PC.

Caution!
When writing programs/data to the flash memory, provide an external stabilized power supply, if at all possible. While it is
possible to write programs/data to flash memory using the coin cell as the power source, this may result in write errors if the
voltage of the coin cell drops below required levels.

(6) Expansion connector, expansion connector implementation pattern

These are used to connect custom client boards for expanded functionality. For more information, refer to “12. External
Interface.”

(7) Reset switch

Press this switch to initialize the S1C6F632 and peripheral devices for the board.
Caution!

If a PC is connected via the USB-Serial on Board Writer, the writer software in the PC is used for S1C6F632 reset control. Do
not press this Reset switch in such cases.

(8) Power supply jumper switch for S1C6F632

Remove this jumper switch (JP1) and connect an ammeter to the pins to measure the current consumed by the S1C6F632. For
normal use, keep the jumper switch mounted on the board. See Appendix A for more information.

(9) VDD pin, VSS pin

These pins supply VDD and VSS power to the S1C6F632.

 S5U1C6F632T2

(1) ICE connectors (I/O, LCD)

These connectors are used to connect the ICE63. Power (+3.3 V) from the ICE63 is supplied through these connectors (I/O).

(2) Reset switch

Press this switch to initialize the peripheral devices for the board and to provide an initialization signal to the connected ICE63.

(3) Expansion connector, expansion connector implementation pattern

These are used to connect custom client boards for expanded functionality. For more information, refer to “12. External
Interface.”

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2.3 Board dimensional diagram

2.3.1 Board dimensions

The dimensions of the boards are given below.

 S5U1C6F632T1/T2

2. Component Names and Functions

Figure 2.3.1 S5U1C6F632T1 board dimensions

 S5U1C6F632T2 (interface board)

Component
coordinate origin

Figure 2.3.2 S5U1C6F632T2 interface board dimensions

* Note
 The unit of measurement is millimeters (mm).

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 9

2. Component Names and Functions

2.3.2 LCD panel dimensions

The dimensions of the LCD panel mounted on the board are given below.

Figure 2.3.3 (a) LCD panel/bezel dimensions

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2. Component Names and Functions

Figure 2.3.3 (b) LCD panel dimensions

Figure 2.3.3 (c) Bezel dimensions

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 11

2. Component Names and Functions

2.4 Main components

 S5U1C6F632T1

CPU (U1) ........................................................................................................... S1C6F632 (Seiko Epson)

Crystal oscillator 32.768 kHz (x 1).................................................................... MC-306 (Epson Toyocom)

Ceramic oscillator (x 2)..................................................................................... EFOSS4004E5 (Matsushita)

LCD (LCD1)...................................................................................................... Custom-made component

Thermistor (R7)................................................................................................. 103KT1005 (Ishizuka)

Humidity sensor (R3) ........................................................................................ C10M53R (Shinyei Technology)

Pressure sensor (U5).......................................................................................... SCP1000-D01 (VTI)

Illumination sensor (U4).................................................................................... TPS856 (Toshiba)

A/D converter (U2)............................................................................................ AD7466BRM (Analog Devices)

Regulator (U8)................................................................................................... LT1962EMS8-3 (Linear Technology)

Piezo buzzer (BZ1)............................................................................................ PS1240P02AT (TDK)

Coin cell holder (BT1)....................................................................................... BA2032SM (Takachi Electric)

Connector (CN1) ............................................................................................... HIF3E-10PA-2.54DSA (71) (Hirose Electric)

Connector (CN2) ............................................................................................... HIF3E-30PA-2.54DSA (71) (Hirose Electric)

Connector (CN6) ............................................................................................... B2B-XH-A (J.S.T Mfg.)

Switch (SW1, SW2, SW3, SW4, RESET)......................................................... SKHHDHA010 (Alps Electric)

Switch (POW).................................................................................................... 09 10290 01 (SECME)

Coin cell............................................................................................................. CR2032

<Accessories>

Power cable and connectors............................................................................... XHP-2 (J.S.T Mfg.)

 S5U1C6F632T2

<Main board: Upper board>

LCD (LCD1)...................................................................................................... Custom-made component

Pressure sensor (U5).......................................................................................... SCP1000-D01 (VTI)

Illumination sensor (U4).................................................................................... TPS856 (Toshiba)

A/D converter (U2)............................................................................................ AD7466BRM (Analog Devices)

Piezo buzzer (BZ1)............................................................................................ PS1240P02AT (TDK)

Connector (CN1) ............................................................................................... HIF3E-10PA-2.54DSA (71) (Hirose Electric)

Connector (CN2) ............................................................................................... HIF3E-30PA-2.54DSA (71) (Hirose Electric)

Switch (SW1, SW2, SW3, SW4, RESET)......................................................... SKHHDHA010 (Alps Electric)

<Interface board: Lower board>

Connector (P1, P2, P5, P6)................................................................................ 3432-6002LCPL (3M)

Connector (P3)................................................................................................... 3662-6002LCPL (3M)

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3. Block Diagram

The block diagrams for the SVT6F632 are shown below.

 S5U1C6F632T1

3. Block Diagram

Provided in product package

Illumination
sensor
TPS850

Pressure sensor
SCP1000

Thermistor resistor

Humidity sensor

Crystal oscillator

Ceramic oscillator

ADC

103KT1005

C10M53R

(32.768 Hz)

(4 MHz)

Cable for writer

SIO

S1C6F632
(PQFP20-144)

SEN0
REF0

HUD
SEN1

OSC1
OSC2

OSC3
OSC4

P11
P12
P13

P03

SEG

COM

I/O

LCD

Push-on
switches

Piezo buzzer

Expansion
connector

48 dots

32 dots

Power switch
(slide switch)

USB

USB-Serial on Board Writer
S5U1C88000W4

Figure 3.1 S5U1C6F632T1 block diagram

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 13

3. Block Diagram

 S5U1C6F632T2

Provided in product package

Illumination
sensor
TPS850

Pressure sensor
SCP1000

Push-on
switches

Expansion
connector

ADC

USB

SIO

In-circuit
emulator
S5U1C63000H

SEG

LCD

COM

Piezo buzzer

ICE interfaces

1) 40 pins x 2: I/O1

2) 10 pins x 1: I/O2

3) 40 pins x 2: LCD

48 dots

32 dots

Figure 3.2 S5U1C6F632T2 block diagram

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4. Operating Configuration and Startup Procedure

4. Operating Configuration and Startup

Procedure

4.1 Standalone operation (S5U1C6F632T1)

With the USB-Serial on Board Writer (S5U1C88000W4) connected, the S5U1C6F632T1 can write programs/data to the internal
flash EEPROM of the S1C6F632 mounted on the S5U1C6F632T1 board. Once a program/data is written, the board can run from a
coin cell for standalone operations. The corresponding connection configurations and startup procedures are described below.

1) Connecting the USB-Serial on Board Writer

Connect the USB-Serial on Board Writer (S5U1C88000W4) to the CN1 connector on the S5U1C6F632T1 board.

Figure 4.1.1 Connecting the USB-Serial on Board Writer

Caution!
Carefully check the position of Pin 1 in the CN1 connector when connecting. The connector lacks a safeguard to prevent
reversed connections.

2) Selecting the power supply

Set the power supply input selector switch correctly. When using a coin cell, set the jumper switch to “B.” When using an
external power supply, set the switch to “E.” For more information, refer to “2. Component Names and Functions.”

Caution!
When writing programs/data to the flash memory, use an external stabilized power supply, if at all possible. While it is
possible to write programs/data to the flash memory by using the coin cell as the power source, this may result in write errors
if the voltage of the coin cell drops below required levels.

3) Writing programs/data using the USB-Serial on Board Writer

Write programs/data to the flash EEPROM by referring to Appendix B “PROM Programming” in the S1C6F632 Technical
Manual.

4) Operation

After writing programs/data, turn off the power to the board, disconnect the USB-Serial on Board Writer, then turn on power
once again. When an external power supply is used to write programs/data and the coin cell is used for board operations,
switch the power supply input selector from “E” to “B.”

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 15

4. Operating Configuration and Startup Procedure

4.2 In-circuit emulator debugging operations (S5U1C6F632T2)

Connecting the in-circuit emulator (ICE63: S5U1C63000H) to a PC allows use of the S5U1C6F632T2 as part of an advanced
debugging environment. The corresponding connection configurations and startup procedures are described below.

1) Connecting the in-circuit emulator

Connect the P1, P2, P5, P6, and P3 connectors, respectively, on the S5U1C6F632T2 board to the CN1-2, CN1-1, CN4-2,
CN4-1, and CN3 on the in-circuit emulator (ICE63: S5U1C63000H). The names of the ICE63 connectors (CN1-1, CN1-2,
CN4-1, CN4-2, CN3) are also indicated on the S5U1C6F632T2 board. Confirm these connector indications when connecting.
Use the I/O cables supplied for the standard peripheral board (S5U1C63000P6) and add-on board (S5U1C6F632P2), which are
designed to be used in combination with the ICE63.

Note that circuit data for S1C6F632 must be written to the standard peripheral board (S5U1C63000P6) built into the in-circuit
emulator in advance. For a detailed discussion of the procedure for writing data, refer to Appendix A in the S1C6F632
Technical Manual.

Figure 4.2.1 Connecting the in-circuit emulator

2) Starting the in-circuit emulator

Turn on power for the in-circuit emulator. For operating method of the in-circuit emulator, refer to the S1C63000H6 Hardware
Manual. Do not supply power to the S5U1C6F632T2 board. The power needed will be provided from the in-circuit emulator
through the I/O cables.

Caution!
The sensors (temperature sensor, humidity sensor) for R/F converter use variable resistors in pseudo mode. Mount variable
resistors and other components to the in-circuit emulator’s internal add-on board (S5U1C6F632P2) for S1C6F632 for software
evaluations.

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5. Connecting the Ports to Peripheral Circuits

5. Connecting the Ports to Peripheral Circuits

Table 5.1 shows the ports on the S1C6F632 of the SVT6F632 and the peripheral circuits to which ports are connected. For
information on the expansion connector, refer to “12. External Interface.”

Table 5. 1 List of ports and connection destinations

Port Direction Multiplex Signal name Connection destination

P00 - R/F converter

(ch0)

P01 - R/F converter

(ch0)

P02 - R/F converter

(ch0)

P03 O R/F converter

(ch0), buzzer

P10 I Stopwatch P10/RUN/LAP Push-on switch (SW1)

P11 I Stopwatch P11/RUN/LAP Push-on switch (SW2)

P12 I Event counter P12/EVIN_A Push-on switch (SW3)

P13 I Programmable

timer

P20 O Serial

interface

P21 O Serial

interface

P22 I Serial

interface

P23 O Serial

interface,
FOUT

P30 O P30 PD pin for pressure sensor (SCP1000) (after logic

P31 I Programmable

timer

P00/RFIN0 Temperature sensor

Expansion connector (CN2)
ICE connector (CN5  P4  P3)

P01/REF0 Temperature sensor

Expansion connector (CN2)
ICE connector (CN5  P4  P3)

P02/SEN0 Temperature sensor

Expansion connector (CN2)
ICE connector (CN5  P4  P3)

P03/RFOUT/BZ Piezo buzzer

Expansion connector (CN2)
ICE connector (CN5  P4  P3 )

Expansion connector (CN2)
ICE connector (CN5  P4  P2)

Expansion connector (CN2)
ICE connector (CN5  P4  P2)

Expansion connector (CN2)
ICE connector (CN5  P4  P2)

*1

*2

*1

*2

*1

*2

*1

*2

*2

*2

*2

P13/TOUT_A Push-on switch (SW4)

Expansion connector (CN2)
ICE connector (CN5  P4  P2)

*2

P20/SCLK SCK pin for pressure sensor (SCP1000)

Expansion connector (CN2)
Expansion connector (CN3)
ICE connector (CN5  P4  P2)

*3

*2

P21/SOUT MOSI pin for pressure sensor (SCP1000)

Expansion connector (CN2)
Expansion connector (CN3)
ICE connector (CN5  P4  P2)

*3

*2

P22/SIN MISO pin for pressure sensor (SCP1000)

Expansion connector (CN2)
Expansion connector (CN3)
ICE connector (CN5  P4  P2)

*3

*2

P23/SRDY/SS/FOUT CSB pin for pressure sensor (SCP1000) (after logic

inversion)
Expansion connector (CN2)
ICE connector (CN5  P4  P2)

*2

inversion)
Expansion connector (CN2)
ICE connector (CN5  P2)

*2

P31/TOUT_B DRDY pin for pressure sensor (SCP1000)

Expansion connector (CN2)
ICE connector (CN5  P4  P2)

*2

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5. Connecting the Ports to Peripheral Circuits

Port Direction Multiplex Signal name Connection destination

P32 I/O Programmable

timer

P32/TOUT_C Expansion connector (CN2)

Expansion connector (CN3)

*3

ICE connector (CN5  P4  P2)

P33 O Programmable

timer

P33/TOUT_D Illumination sensor power supply control (after logic

inversion)
Expansion connector (CN2)
ICE connector (CN5  P4  P2)

P40 O P40 SCLK pin for AD converter

Expansion connector (CN2)
ICE connector (CN5  P4  P2)

P41 I Programmable

timer

P41/EVIN_B SDAT pin for AD converter

Expansion connector (CN2)
ICE connector (CN5  P4  P2)

P42 O Programmable

timer

P42/EVIN_C XCS pin for AD converter

Expansion connector (CN2)
ICE connector (CN5  P4  P2)

P43 I/O Programmable

timer

P50 I/O P50 Expansion connector (CN2)

P43/EVIN_D Expansion connector (CN2)

ICE connector (CN5  P4  P2)

Expansion connector (CN3)

*3

ICE connector (CN5  P4  P2)

P51 I/O P51 Expansion connector (CN2)

Expansion connector (CN3)

*3

ICE connector (CN5  P4  P2)

P52 I/O P52 Expansion connector (CN2)

Expansion connector (CN3)

*3

ICE connector (CN5  P4  P2)

P53 I/O P53 Expansion connector (CN2)

Expansion connector (CN3)

*3

ICE connector (CN5  P4  P2)

*2

*2

*2

*2

*2

*2

*2

*2

*2

*2

Caution!
*1 Connect by shorting out the solder bridge.
*2 In the case of S5U1C6F632T2
*3 Connector not provided. Board pattern only.

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6. Switch Input (Shared Input/Output Ports)

6. Switch Input (Shared Input/Output Ports)

Switches SW1 through SW4 provided on the SVT6F632 are connected to ports P10, P11, P12, and P13 on the S1C6F632, as shown
in Figure 6.1.

S1C6F632

P10

P11

P12

P13

Figure 6.1 Key input connection circuit of CPU board

Input ports P10, P11, P12, and P13 on the S1C6F632 are internally added with pull-down resistors and remain at Low (input = 0)
under normal conditions. It changes to High (input = 1) when the push-on switch is pressed.

Caution!
The mask option specification for the S1C6F632 of the board is Standard Type B. For more information, refer to the S1C6F632
Technical Manual.

SW1

SW2

SW3

SW4

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 19

7. Temperature/Humidity Measurement

(R/F Converter)

7. Temperature/Humidity Measurement

(R/F Converter)

The S5U1C6F632T1 is equipped with a temperature sensor (thermistor resistor) and a humidity sensor. Using the S1C6F632’s
internal R/F converter, the S5U1C6F632T1 can measure temperature and humidity. The S5U1C6F632T2 lacks the resistor or
capacitor necessary for such measurements. For software evaluations, variable resistors and other functions are connected in pseudo
mode to the platform on the add-on board (S5U1C6F632P2), which is designed to be used in combination with the ICE63. For more
information, refer to Appendix A in the S1C6F632 Technical Manual.

Figure 7.1 Connection for temperature and humidity measurements

Temperature sensor

Humidity sensor

Caution!
The P00 to P02 ports on the S1C6F632 are shared with the R/F converter. These ports are used as R/F converter pins by the board
and serve as dedicated R/F converter connection pins. However, when the S5U1C6F632T2 is used, the temperature and humidity
sensors are connected to the add-on board inside the ICE63. This means the P00 to P02 ports can also be used as general-purpose
I/O ports by switching pin functions through software. The P00 to P02 pins can be used through the expansion board connector
(CN2). For more information, refer to “12. External Interface.”

20 EPSON S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al

8. LCD Display (LCD Driver)

8. LCD Display (LCD Driver)

The S1C6F632 is equipped with a dot matrix LCD driver capable of driving a black-and-white LCD panel of up to 48 segments
(SEG) x 32 commons (COM). The board comes with an LCD panel of 128 segments (SEG) x 32 commons (COM), which is
connected to the SEG/COM pins of the S1C6F632, as shown below.

S1C6F632

COM0 to COM31

SEG0 to SEG47

COM0 to COM31

SEG0 to SEG47

COM0
COM1

COM2
COM3

・

・

・

COM28
COM29
COM30
COM31

SEG0

SEG1

・・・

SEG40

SEG41

(SEG1)

(SEG0)

LCD panel

・・・

SEG86

(SEG46

SEG87

(SEG47)

・・・

SEG126

SEG127

Figure 8.1 LCD panel connection

Although the LCD panel mounted on the SVT6F632 has 128 segments (SEG) x 32 commons (COM), the S1C6F632 is capable of
displaying up to 48 segments (SEG) x 32 commons (COM). On the SVT6F632, the display area is centered in the LCD panel, as
shown below.

SEG direction

C6F632

COM direction

LCD panel
display area

Figure 8.2 SEG/COM direction of LCD panel

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 21

9. Pressure Sensor (Serial Interface)

9. Pressure Sensor (Serial Interface)

The SVT6F632 uses the S1C6F632’s built-in serial interface (clock synchronization type x 1 ch) to communicate with the pressure
sensor (SCP1000). Since the general-purpose input/output ports on the S1C6F632 also serve as serial ports, the functions of these
ports must be switched by software if they are to be used as serial ports. Input/output signals from the serial ports are also connected
to the expansion connector. Furthermore, the shared input/output ports (P30, P31) are used for pressure sensor communication-ready
control and power supply control.

Table 9.1 Serial port connection destinations

Interface Signal name (port pin) I/O Connection destination

SCLK (P20) O SCK pin for pressure sensor (SCP1000)

Clock synchronization type

Expansion connector (CN2)
Expansion connector (CN3)
ICE connector (CN5  P4  P2)

SOUT (P21) O MOSI pin for pressure sensor (SCP1000)

Expansion connector (CN2)
Expansion connector (CN3)
ICE connector (CN5  P4  P2)

SIN (P22) I MISO pin for pressure sensor (SCP1000)

Expansion connector (CN2)
Expansion connector (CN3)
ICE connector (CN5  P4  P2)

SS (P23) O CSB pin for pressure sensor (SCP1000) (after logic inversion)

Expansion connector (CN2)
ICE connector (CN5  P4  P2)

*1

*2

*1

*2

*1

*2

*2

*1 Connector not provided. Board pattern only.
*2 In the case of S5U1C6F632T2

22 EPSON S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al

9. Pressure Sensor (Serial Interface)

Pressure sensor

S1C6F632

Figure 9.1 Pressure sensor connection diagram

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 23

10. Buzzer (Sound Generator)

10. Buzzer (Sound Generator)

The SVT6F632 can drive a piezo buzzer using the S1C6F632’s built-in sound generator. This capability is enhanced by the
externally connected transistor.

S1C6F632

Figure 10.1 Piezo buzzer drive circuit diagram

24 EPSON S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al

11. Illumination Sensor

11. Illumination Sensor

The SVT6F632 is equipped with an illumination sensor and an AD converter. The AD converter processes the voltage output from
the illumination sensor for illumination detection. The S1C6F632 uses the shared input/output ports (P40 to P42) to control the AD
converter. It also uses the shared input/output port (P33) to control the illumination sensor power supply.

Illumination sensor

Figure 11.1 Illumination sensor circuit diagram

S1C6F632

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 25

12. External Interface

(
p

)

(
p

)

(

p
)

12. External Interface

The board is provided with an expansion connector (CN2) and an expansion connector implementation pattern (CN3) to allow
clients to connect custom boards. The S5U1C6F632T2 is also provided with ICE connectors to allow users to configure an advanced
debugging environment by connecting it to the ICE63.

 S5U1C6F632T1 external interface

S1C6F632

R/F converter

Buzzer circuit

Input/output
circuit

Serial
interface

Main board

P00

|

P02

P03

P10

|

P13

P20

|
P23
P30
P31
P32
P33

Thermistor
resistor for

temperature

measurement

Piezo buzzer

Push-on
switches

Pressure

sensor

Illumination

sensor

Solder bridge

CN2

30
in

CN1

USB-Serial
on Board

Writer

10
in

DMOD
DRXD
DTXD
DCLK

P40

|

P42
P43

P50

|

P53

AD converter

P20
P21
P22
P32
P50

|

P53

CN3

20
in

LCD

Figure 12.1 External interface connector (S5U1C6F632T1)

26 EPSON S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al

 S5U1C6F632T2 external interface connector

(
p

)

(
p

)

(
p

)

(
p
)

(
p
)

(
p
)

(
p
)

(
p
)

(
p
)

(
p

)

(
p
)

r

12. External Interface

P4
50

in

Interface board

P3
10

in

S1C6F632

(Not mounted)

Thermistor
resistor for

temperature

measurement

Piezo buzzer

Solder bridge

CN2

30
in

CN5

Main board

Push-on

switches

50
in

Pressure

sensor

P1
40

in

Illumination

senso

ICE63

P2

AD converter

40
in

P20
P21
P22
P32
P50

|

P53

CN3

20
in

CN4

LCD

80
in

P7
80

in

P5
40

in

P6
40

in

Figure 12.2 External interface connector (S5U1C6F632T2)

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 27

12. External Interface

12.1 USB-Serial on Board Writer (S5U1C88000W4) connector (CN1)

The CN1 connector specifications and pin layout are as shown below.

Table 12.1 CN1 connector pin layout and connector diagram (CN1)

CN1 connector

Manufacturer: Hirose Electric
Model: HIF3E-10PA-2.54DSA (71)

(Upper side)

No. Name I/O Function
1 VDD - Power supply pin (positive)
2 VDD - Power supply pin (positive)
3 DCLK I System clock input
4 VSS - Power supply pin (negative)
5 DTXD O Serial interface data output
6 DRXD I Serial interface data input
7 RESET I Reset input
8 NC - Not connected
9 VSS - Power supply pin (negative)
10 DMOD I Programming mode setting input

10

C6F632

9

CN1

1
2

28 EPSON S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al

12.2 Expansion connector (CN2)

The CN2 connector specifications and pin layout are as shown below.

Table 12.2 CN2 connector pin layout and connector diagram

CN2 connector

Manufacturer: Hirose Electric
Model: HIF3E-30PA-2.54DSA (71)

(Upper side)

No. Name I/O Function
1 P00 I/O General-purpose port*1
2 P01 I/O General-purpose port*1
3 P02 I/O General-purpose port*1
4 P03 - Used (buzzer)
5 P10 - Used (push-on switch (SW1))
6 P11 - Used (push-on switch (SW2))
7 P12 - Used (push-on switch (SW3))
8 P13 - Used (push-on switch (SW4))
9 P20 - Used (pressure sensor interface (SCK))
10 P21 - Used (pressure sensor interface (MOSI))
11 P22 - Used (pressure sensor interface (MISO))
12 P23 - Used (pressure sensor interface (CSB))
13 P30 - Used (pressure sensor interface (PD))
14 P31 - Used (pressure sensor interface (DRDY))
15 P32 I/O General-purpose port
16 P33 - Used (illumination sensor power supply control)
17 P40 - Used (AD converter interface (SCLK))
18 P41 - Used (AD converter interface (SDAT))
19 P42 - Used (AD converter interface (XCS))
20 P43 I/O General-purpose port
21 P50 I/O General-purpose port
22 P51 I/O General-purpose port
23 P52 I/O General-purpose port
24 P53 I/O General-purpose port
25 VDD - Power supply pin (positive)
26 VDD - Power supply pin (positive)
27 RESET O Reset output (positive logic)
28 VSS - Power supply pin (negative)
29 VSS - Power supply pin (negative)
30 VSS - Power supply pin (negative)

29
30

CN2

C6F632

12. External Interface

1
2

*1 May be used only with the S5U1C6F632T2. (Cannot be used with R/F converter ch0.)

Not connected with S5U1C6F632T1.

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 29

12. External Interface

12.3 Expansion connector implementation pattern (CN3)

The pin layout of the CN3 connector implementation pattern is shown below.

Table 12.3 CN3 connector implementation pattern layout

CN3 connector implementation pattern

Manufacturer: KEL
Model: 8913-020-178MS-A (Not mounted)

(Upper side)

No. Name I/O Function
1 NC - Not connected
2 NC - Not connected
3 P22 - Used (pressure sensor interface (MISO))
4 P21 - Used (pressure sensor interface (MOSI))
5 VSS - Power supply pin (negative)
6 P32 I/O General-purpose port
7 VSS - Power supply pin (negative)
8 P20 - Used (pressure sensor interface (SCK))
9 VSS - Power supply pin (negative)
10 P50 I/O General-purpose port
11 VSS - Power supply pin (negative)
12 P51 I/O General-purpose port
13 VSS - Power supply pin (negative)
14 P52 I/O General-purpose port
15 VSS - Power supply pin (negative)
16 XRESET O Reset output (negative logic)
17 P53 I/O General-purpose port
18 NC - Not connected
19 VDD - Power supply pin (positive)
20 VDD - Power supply pin (positive)

C6F632

2

CN3

1

20
19

30 EPSON S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al

12.4 ICE connector (S5U1C6F632T2)

The ICE connector specifications and pin layouts are shown below.

Table 12.4.1 ICE connector pin layout and connector diagram (P1, P2, P3, P5, P6)

P1, P2, P3, P5, and P6 connectors

Manufacturer: 3M
Models: 3432-6002LCPL (P1, P2, P5, P6)
3662-6002LCPL (P3)

P5 (CN4-2)

P6 (CN4-1)

P1 (CN1-2)

P2 (CN1-1)

Not

mounted2

12. External Interface

P3 (CN3)

(Upper side)

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 31

12. External Interface

Table 12.4.2 ICE connector pin layout and connector diagram (P1)

P1 (CN1-2)

No. Name I/O Function
1 VDD - Power supply pin (positive)
2 VDD - Power supply pin (positive)
3 NC - Not connected
4 NC - Not connected
5 NC - Not connected
6 NC - Not connected
7 NC - Not connected
8 NC - Not connected
9 NC - Not connected
10 NC - Not connected
11 VSS - Power supply pin (negative)
12 VSS - Power supply pin (negative)
13 NC - Not connected
14 NC - Not connected
15 NC - Not connected
16 NC - Not connected
17 NC - Not connected
18 NC - Not connected
19 NC - Not connected
20 NC - Not connected
21 VDD - Power supply pin (positive)
22 VDD - Power supply pin (positive)
23 NC - Not connected
24 NC - Not connected
25 NC - Not connected
26 NC - Not connected
27 NC - Not connected
28 NC - Not connected
29 NC - Not connected
30 NC - Not connected
31 VSS - Power supply pin (negative)
32 VSS - Power supply pin (negative)
33 NC - Not connected
34 NC - Not connected
35 NC - Not connected
36 NC - Not connected
37 NC - Not connected
38 RESET O Reset output to ICE (positive logic)
39 VSS - Power supply pin (negative)
40 VSS - Power supply pin (negative)

32 EPSON S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al

Table 12.4.3 ICE connector pin layout and connector diagram (P2)

P2 (CN1-1)

No. Name I/O Function
1 VDD - Power supply pin (positive)
2 VDD - Power supply pin (positive)
3 NC - Not connected
4 NC - Not connected
5 NC - Not connected
6 NC - Not connected
7 NC - Not connected
8 NC - Not connected
9 NC - Not connected
10 NC - Not connected
11 VSS - Power supply pin (negative)
12 VSS - Power supply pin (negative)
13 P10 O Switch output (SW1)
14 P11 O Switch output (SW2)
15 P12 O Switch output (SW3)
16 P13 O Switch output (SW4)
17 P20 I Pressure sensor interface (SCK)
18 P21 I Pressure sensor interface (MOSI)
19 P22 O Pressure sensor interface (MISO)
20 P23 I Pressure sensor interface (CSB)
21 VDD - Power supply pin (positive)
22 VDD - Power supply pin (positive)
23 P30 I Pressure sensor interface (PD)
24 P31 O Pressure sensor interface (DRDY)
25 P32 I/O General-purpose port*1
26 P33 I Illumination sensor power supply control
27 P40 I AD converter interface (SCLK)
28 P41 O AD converter interface (SDAT)
29 P42 I AD converter interface (XCS)
30 P43 I/O General-purpose port*1
31 VSS - Power supply pin (negative)
32 VSS - Power supply pin (negative)
33 P50 I/O General-purpose port*1
34 P51 I/O General-purpose port*1
35 P52 I/O General-purpose port*1
36 P53 I/O General-purpose port*1
37 NC - Not connected
38 NC - Not connected
39 VSS - Power supply pin (negative)
40 VSS - Power supply pin (negative)

12. External Interface

*1 May be used by pulling out from the CN2 connector on the m ain board.

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 33

12. External Interface

Table 12.4.4 ICE connector pin layout and connector diagram (P3)

P3 (CN3)

No. Name I/O Function
1 VDD - Power supply pin (positive)
2 VDD - Power supply pin (positive)
3 P00 I/O General-purpose port*1
4 P01 I/O General-purpose port*1
5 P02 I/O General-purpose port*1
6 P03 I Buzzer
7 NC - ­8 NC - ­9 VSS - Power supply pin (negative)
10 VSS - Power supply pin (negative)

*1 May be used by pulling out from the CN2 connector on the m ain board.

34 EPSON S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al

Table 12.4.5 ICE connector pin layout and connector diagram (P5)

P5 (CN2-2)

No. Name I/O Function
1 SEG24 I LCD drive waveform input (SEG)
2 SEG25 I LCD drive waveform input (SEG)
3 SEG26 I LCD drive waveform input (SEG)
4 SEG27 I LCD drive waveform input (SEG)
5 SEG28 I LCD drive waveform input (SEG)
6 SEG29 I LCD drive waveform input (SEG)
7 SEG30 I LCD drive waveform input (SEG)
8 SEG31 I LCD drive waveform input (SEG)
9 SEG32 I LCD drive waveform input (SEG)
10 SEG33 I LCD drive waveform input (SEG)
11 SEG34 I LCD drive waveform input (SEG)
12 SEG35 I LCD drive waveform input (SEG)
13 SEG36 I LCD drive waveform input (SEG)
14 SEG37 I LCD drive waveform input (SEG)
15 SEG38 I LCD drive waveform input (SEG)
16 SEG39 I LCD drive waveform input (SEG)
17 SEG40 I LCD drive waveform input (SEG)
18 SEG41 I LCD drive waveform input (SEG)
19 SEG42 I LCD drive waveform input (SEG)
20 SEG43 I LCD drive waveform input (SEG)
21 SEG44 I LCD drive waveform input (SEG)
22 SEG45 I LCD drive waveform input (SEG)
23 SEG46 I LCD drive waveform input (SEG)
24 SEG47 I LCD drive waveform input (SEG)
25 COM31 I LCD drive waveform input (COM)
26 COM30 I LCD drive waveform input (COM)
27 COM29 I LCD drive waveform input (COM)
28 COM28 I LCD drive waveform input (COM)
29 COM27 I LCD drive waveform input (COM)
30 COM26 I LCD drive waveform input (COM)
31 COM25 I LCD drive waveform input (COM)
32 COM24 I LCD drive waveform input (COM)
33 COM23 I LCD drive waveform input (COM)
34 COM22 I LCD drive waveform input (COM)
35 COM21 I LCD drive waveform input (COM)
36 COM20 I LCD drive waveform input (COM)
37 COM19 I LCD drive waveform input (COM)
38 COM18 I LCD drive waveform input (COM)
39 COM17 I LCD drive waveform input (COM)
40 COM16 I LCD drive waveform input (COM)

12. External Interface

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 35

12. External Interface

Table 12.4.6 ICE connector pin layout and connector diagram (P6)

P6 (CN2-1)

No. Name I/O Function
1 COM0 I LCD drive waveform input (COM)
2 COM1 I LCD drive waveform input (COM)
3 COM2 I LCD drive waveform input (COM)
4 COM3 I LCD drive waveform input (COM)
5 COM4 I LCD drive waveform input (COM)
6 COM5 I LCD drive waveform input (COM)
7 COM6 I LCD drive waveform input (COM)
8 COM7 I LCD drive waveform input (COM)
9 COM8 I LCD drive waveform input (COM)
10 COM9 I LCD drive waveform input (COM)
11 COM10 I LCD drive waveform input (COM)
12 COM11 I LCD drive waveform input (COM)
13 COM12 I LCD drive waveform input (COM)
14 COM13 I LCD drive waveform input (COM)
15 COM14 I LCD drive waveform input (COM)
16 COM15 I LCD drive waveform input (COM)
17 SEG0 I LCD drive waveform input (SEG)
18 SEG1 I LCD drive waveform input (SEG)
19 SEG2 I LCD drive waveform input (SEG)
20 SEG3 I LCD drive waveform input (SEG)
21 SEG4 I LCD drive waveform input (SEG)
22 SEG5 I LCD drive waveform input (SEG)
23 SEG6 I LCD drive waveform input (SEG)
24 SEG7 I LCD drive waveform input (SEG)
25 SEG8 I LCD drive waveform input (SEG)
26 SEG9 I LCD drive waveform input (SEG)
27 SEG10 I LCD drive waveform input (SEG)
28 SEG11 I LCD drive waveform input (SEG)
29 SEG12 I LCD drive waveform input (SEG)
30 SEG13 I LCD drive waveform input (SEG)
31 SEG14 I LCD drive waveform input (SEG)
32 SEG15 I LCD drive waveform input (SEG)
33 SEG16 I LCD drive waveform input (SEG)
34 SEG17 I LCD drive waveform input (SEG)
35 SEG18 I LCD drive waveform input (SEG)
36 SEG19 I LCD drive waveform input (SEG)
37 SEG20 I LCD drive waveform input (SEG)
38 SEG21 I LCD drive waveform input (SEG)
39 SEG22 I LCD drive waveform input (SEG)
40 SEG23 I LCD drive waveform input (SEG)

36 EPSON S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al

Appendix A Consumption Current Measurement Method

Appendix A Consumption Current

Measurement Method

The S5U1C6F632T1 board can measure the current consumed solely by the S1C6F632. Figure A.1 shows the circuit structure of the
S5U1C6F632T1 board power supply connection. To measure the amount of current consumed just by the S1C6F632, remove the
jumper switch (JP1) and connect an ammeter to the two pins in series. Note that the ports on the S1C6F632 must be set
appropriately according to the peripheral circuits.

Figure A.1 S1C6F632 consumption current measurement circuit

VSS
VSS
VSS

S1C6F632

VDD
VDD

2

JP1

1

S5U1C6F632T1/T2 (SVT6F632) Ha rdwa re Manu al EPSON 37

COM7
COM6
COM5
COM4
COM3
COM2
COM1
COM0

SEG0
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG15
SEG16
SEG17
SEG18
SEG19
SEG20
SEG21
SEG22
SEG23

COM9
COM10
COM11
COM12
COM13
COM14
COM15

10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80

LCD1

LCD1

1
2
3
4
5
6
7
8
9

COM7
COM6
COM5
COM4
COM3
COM2
COM1
COM0
SEG0
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG15
SEG16
SEG17
SEG18
SEG19
SEG20
SEG21
SEG22
SEG23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
SEG37
SEG38
SEG39
SEG40
SEG41
SEG42
SEG43
SEG44
SEG45
SEG46
SEG47
SEG48
SEG49
SEG50
SEG51
SEG52
SEG53
SEG54
SEG55
SEG56
SEG57
SEG58
SEG59
SEG60
SEG61
SEG62
SEG63
COM8
COM9
COM10
COM11
COM12
COM13
COM14
COM15

COM16
COM17
COM18
COM19
COM20
COM21
COM22
COM23

SEG100
SEG101
SEG102
SEG103
SEG104
SEG105
SEG106
SEG107
SEG108
SEG109
SEG110
SEG111
SEG112
SEG113
SEG114
SEG115
SEG116
SEG117
SEG118
SEG119
SEG120
SEG121
SEG122
SEG123
SEG124
SEG125
SEG126
SEG127

COM31
COM30
COM29
COM28
COM27
COM26
COM25
COM24

LCD_PANEL

LCD_PANEL

SEG64
SEG65
SEG66
SEG67
SEG68
SEG69
SEG70
SEG71
SEG72
SEG73
SEG74
SEG75
SEG76
SEG77
SEG78
SEG79
SEG80
SEG81
SEG82
SEG83
SEG84
SEG85
SEG86
SEG87
SEG88
SEG89
SEG90
SEG91
SEG92
SEG93
SEG94
SEG95
SEG96
SEG97
SEG98
SEG99

COM0
COM1
COM2
COM3
COM4
COM5

VDD

PAD7

PAD7

2

PAD2

PAD2

COM6
COM7
COM8
COM9
COM10
COM11
COM12
COM13
COM14
COM15
SEG0
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG15

SEG16
SEG17
SEG18
SEG19
SEG20
SEG21
SEG22
SEG23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
SEG37
SEG38
SEG39
SEG40
SEG41
SEG42
SEG43
SEG44
SEG45
SEG46
SEG47

COM31
COM30
COM29
COM28
COM27
COM26
COM25
COM24
COM23
COM22
COM21
COM20
COM19
COM18
COM17
COM16

1

3

10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36

VC3

VC2

R1 10MR1 10M

R2 4.3KR2 4.3K

R3

C10M53R

C10M53R

R4 47KR4 47K

Temperature

1000pFC11000pF

R3

C1

Humidity

VDD

C3

C3

+

2 3

3.3uF

3.3uF

108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73

X1
MC-306X1MC-306

C7 6pFC7 6pF

C9 10pFC9 10pF

+

123

124

125

126

127

128

129

130

131

132

133

134

135

136

137

138

139

140

141

142

143

144

U1

U1

SEG0

SEG1

SEG2

SEG3

SEG4

SEG5

SEG6

SEG7

SEG8

SEG9

SEG10

SEG11

SEG12

SEG13

SEG14

SEG15

1

SEG16

2

SEG17

3

SEG18

4

SEG19

5

SEG20

6

SEG21

7

SEG22

8

SEG23

9

SEG24

S1C6F632 ( Caution: This pin assignment is not same to for sales version. )

SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
SEG37
SEG38
SEG39
SEG40
SEG41
SEG42
SEG43
SEG44
SEG45
SEG46
SEG47
NC
NC
NC
NC

COM31SEG48

COM30SEG49

COM29SEG50

COM28SEG51

COM27SEG52

COM26SEG53

COM25SEG54

COM24SEG55

COM23SEG56

COM22SEG57

COM21SEG58

COM20SEG59

COM19SEG60

COM18SEG61

37

38

39

40

41

42

43

44

45

46

47

48

49

50

COM12

COM13

COM14

COM15

COM17SEG62

COM16SEG63

VSS53VD254CG55CF56CE57CD58CC59CB60CA61VC562VC463VC364VC265VC166VDD67OSC368OSC469VSS70OSC171OSC2

51

52

122

COM10

COM11

121

COM8

COM9

120

COM7

119

COM6

118

117

COM4

COM5

116

COM3

115

COM2

114

COM1

113

COM0

112

111

HUD

110

REF1

SEN1

RFIN1

RFIN0P00

REF0P01
SEN0P02

RFOUTP03

RESET

TEST

DCLK
DTXD
DRXD

DMOD
TEST3
TEST2
TEST1

72

VSS

VDD

P10
P11
P12
P13
P20
P21
P22
P23
P30
P31
P32
P33
P40
P41
P42
P43
P50
P51
P52
P53

VD1

109

4

1

JP1

JP1
DSP02

DSP02

C5

0.1uFC50.1uF

R5 10KR5 10K

R6 OPENR6 OPEN

103KT1005

103KT1005

R7

R7
R80R8
0

C6

C6

+

+

3.3uF

3.3uF

1000pFC21000pF

C2

C8

0.1uFC80.1uF

P10
P11
P12
P13
P20
P21
P22
P23
P30
P31
P32
P33
P40
P41
P42
P43
P50
P51
P52
P53

DCLK
DTXD
DRXD
DMOD

PAD_APAD_A
PAD_APAD_A
PAD_APAD_A

PAD_APAD_A

VDD

C4

0.1uFC40.1uF

RESET

P00
P01
P02

P03

P03_BZ

SW1

SW1

SKHHDHA010

SKHHDHA010

1 2

RESET

C10 10pFC10 10pF

X2

C12

C12

0.1uF

0.1uF

C13

C13

0.1uF

0.1uF

C14

C14

0.1uF

0.1uF

C15

C15

0.1uF

0.1uF

C16

C16

0.1uF

0.1uF

C17

C17

0.1uF

0.1uF

EFOSS4004E5 4MHz

EFOSS4004E5 4MHz

C19

C19

C18

C18

0.1uF

0.1uF

0.1uF

0.1uF

X2

C20

C20

0.1uF

0.1uF

C21

C21

0.1uF

0.1uF

R91MR9

C11

C11

1M

10pF

10pF

VC2
VC3

for

Ceramic

or CR

Title

Title

Title

Size Document Number Rev

Size Document Number Rev

Size Document Number Rev

A3

A3

A3

Date: Sheet

Date: Sheet

Date: Sheet

1100 circuit

S5U1C6F632T

S5U1C6F632T

S5U1C6F632T1100

circuit

12Monday, April 07, 2008

12Monday, April 07, 2008

12Monday, April 07, 2008

of

of

of

81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160

COM16
COM17
COM18
COM19
COM20
COM21
COM22
COM23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
SEG37
SEG38
SEG39
SEG40
SEG41
SEG42
SEG43
SEG44
SEG45
SEG46
SEG47

COM31COM8
COM30
COM29
COM28
COM27
COM26
COM25
COM24

PAD5

PAD5

1

PAD_APAD_A

2

3

PAD2

PAD2

P03_BZ

v

v

0.1uF

0.1uF

C24

C24

VDD_F

1

2

3

R190R19
0

R20

R20
OPEN

OPEN

U4

VCC

GND

GND

Illumination

TPS856U4TPS856

VDD

5

+

+

6

-

-

R18 0R18 0

C32

C32

0.1uF

0.1uF

84

U3B

U3B

OPA2349

OPA2349

R161KR16
1K

U8

U8

1

OUT

2

ADJ

3

BYP
GND4SHDN

LT1962EMS8-3

LT1962EMS8-3

C33

C33
10uF

10uF

BA2032SM

BA2032SM

BT1

BT1

Q1

TP2TP2

R12R12

1K

1
2

TP1TP1

Q1

SSM3J02F

SSM3J02F

2 3

1

R110R11
0

R13 200KR13 200K

R14

R14

200K

200K

CN6

CN6

B2B-XH-A

B2B-XH-A

2 1 3

R21

R21
100K

100K

VDD

CN1

CN1
HIF3E-10PA-2.54DSA

HIF3E-10PA-2.54DSA

1

VDD

2

VDD

DCLK

DTXD
DRXD

RESET

VDD

P42

C23

C23

0.1uF

0.1uF

84

3

+

+

2

-

-

U3A

U3A

OPA2349

OPA2349

PAD8PAD8

1

P41
P40

AD7466U2 AD7466U2

1

XCS

2

SDAT

3

SCLK

4

NC

VCC
GND

8
7
6

VIN

5

NC

VDD

C22

C22

0.1uF

0.1uF

DMOD

3

CLK_M

4

GND

5

RXD

6

TXD

7

MRESET

8

NC

9

GND

10

DMOD

FlashWriter

R15 200KR15 200K

C25 0.01uF Only pattern, the pin No.1 and 3 for OPA2349 is connected.C25 0.01uF

ICE CN1

CN4

CN4

C28

C28

0.47uF

0.47uF

1

ATST

2

TRIG

3

DRDY

4

CLK

5

DVDD

6

DVSS

Pressure

SCP1000-D01

SCP1000-D01

16

ATST

AVSS
AVDD

MISO
MOSI

CSB

SCK

15

U5

U5

AVSS

14
13
12
11
10
9

C26

C26

0.47uF

0.47uF

+

+

P31

R170R17

VDD

+

+

0

DVDDS7PD

VDD

C30

C30

0.1uF

0.1uF

U7

U7

P30

P23 COM30

P22
P21
P20

1
2

6

1A

1Y

5

GND

VCC

4

2A32Y

SN74LVC2G04DCKT

SN74LVC2G04DCKT

PD

CSB

C29

C29

0.1uF

0.1uF

8

COM7
COM6
COM5
COM4
COM3
COM2
COM1
COM0

SEG0
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8

SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG15
SEG16
SEG17
SEG18
SEG19
SEG20
SEG21
SEG22
SEG23

COM8

COM9
COM10
COM11
COM12
COM13
COM14
COM15

112
334
556
778
9910
111112
131314
151516
171718
191920
212122
232324
252526
272728
292930
313132
333334
353536
373738
393940
414142
434344
454546
474748
494950
515152
535354
555556
575758
595960
616162
636364
656566
676768
696970
717172
737374
757576
777778
797980

AXN1800115S

AXN1800115S

2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80

COM16
COM17
COM18
COM19
COM20
COM21
COM22
COM23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
SEG37
SEG38
SEG39
SEG40
SEG41
SEG42
SEG43
SEG44
SEG45
SEG46
SEG47
COM31

COM29
COM28
COM27
COM26
COM25
COM24

VDD

SW2

SW2
09 10290 01

09 10290 01

VDD

C34

C34

10uF

10uF

SW3

+

+

SW3

SKHHDHA010

SKHHDHA010

1 2

SW4

SW4

SKHHDHA010

SKHHDHA010

1 2

SW5

SW5

SKHHDHA010

SKHHDHA010

1 2

SW6

SW6

SKHHDHA010

SKHHDHA010

1 2

P13

CN2

CN2
HIF3E-30PA-2.54DSA

P33

HIF3E-30PA-2.54DSA

112
334
556
778
9910
111112
131314
151516

17

17

19
21
23
25
27
29

CN3

CN3
8913-020-178MS-A

8913-020-178MS-A

112
334
556
778
9910
111112
131314
151516

17

17

19

1
2

CN5

CN5
AXN1500115S

AXN1500115S

112
334
556
778
9910
111112
131314
151516

17

17

19
21
23
25
27
29

313132
333334
353536
373738
393940
414142
434344
454546
474748
494950

P00
P02
P10
P12
P20
P22
P30
P32
P40
P42
P50
P52

RESET

P22

P53

RESET

VDD

RESET

P52 P53
P50
P42
P40

P32
P30
P22
P20

P12
P10
P02
P00

VDD VDDVDD_F

R10

R10
200K

200K

VDDFON

VDD_F

6

OUT

5

GND

4

GND

7

VDD

BZ1

BZ1

PS1240P02AT

PS1240P02AT

3

Q2

Q2

1

SSM3K02F

SSM3K02F

2

8

IN

7

NC

6

NC

5

+

+

C31

C31

+

+

10uF

10uF

JP2

JP2

DSP03-003-432 G

DSP03-003-432 G

VDD

2
4
6
8
10
12
14
16
18

18
202019
222221
242423
262625
282827
303029

2
4
6
8
10
12
14
16
18

18
202019

VDD

VDDFON

U6

U6

6

1A

1Y

5

GND

VCC

4

2A32Y

SN74LVC2G04DCKT

SN74LVC2G04DCKT

2
4
6
8
10
12
14
16
18

18
202019
222221
242423
262625
282827
303029

32
34
36
38
40
42
44
46
48
50

VDD

VDD

P01
P03
P11
P13
P21
P23
P31
P33
P41
P43
P51
P53

Expansion

P21
P32
P20
P50
P51
P52
XRESET

Expansion I/O

C27

C27

0.1uF

0.1uF

XRESET

ICE CN2

P51
P43
P41

P33
P31
P23
P21

P13
P11
P03
P01

I/O

P12

1 2

P11

P10

Title

Title

Title

Size Document Number Re

Size Document Number Re

Size

Date: Sheet

Date: Sheet

Date: Sheet

A3

A3

A3

6F632T1100 circuit

S5U1C

S5U1C6F632T

1100 circuit

22Tuesday, April 08, 2008

22Tuesday, April 08, 2008

22Tuesday, April 08, 2008

of

of

of

VDD VDD

P1

P1

2

112

4

334

6

556

8

778

10

9910

12

111112

14

131314

16

151516

18

171718

20

191920

22

212122

24

232324

26

252526

28

272728

30

292930

32

313132

34

333334

36

353536

38

373738

40

393940

3432-6002LC

3432-6002LC

RESET

CN1-1CN1-2

VDD VDD

P2

P2

112
334
556
778
9910

P10
P12
P20
P22

P30
P32
P40
P42

P50
P52

111112
131314
151516
171718
191920
212122
232324
252526
272728
292930
313132
333334
353536
373738
393940

3432-6002LC

3432-6002LC

CN 3

VDDVDD

P3

2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40

P11
P13
P21
P23

P31
P33
P41
P43

P51
P53

P00
P02

P3

1

2

3

4

5

6

7

8

9

10

3662-6002LC

3662-6002LC

P01
P03

P53
P51
P43
P41

P33
P31
P23
P21

P13
P11
P03
P01

P4

P4
AXN1500115S

AXN1500115S

112
334
556
778
9910
111112
131314
151516

17

17

19
21
23
25
27
29

313132
333334
353536
373738
393940
414142
434344
454546
474748
494950

18
202019
222221
242423
262625
282827
303029

VDDVDD

2
4
6
8
10
12
14
16
18

32
34
36
38
40
42
44
46
48
50

RESET

P52
P50
P42
P40

P32
P30
P22
P20

P12
P10
P02
P00

SEG24
SEG26
SEG28
SEG30
SEG32
SEG34
SEG36
SEG38
SEG40
SEG42
SEG44

SEG46
COM31SEG48
COM29SEG50
COM27SEG52
COM25SEG54
COM23SEG56
COM21SEG58
COM19SEG60
COM17SEG62

CN4-2 CN4-1

P5

TP1

TP1
P00

P00

TP12

TP12
P10

P10

TP20

TP20
P20

P20

TP2

TP2
P01

P01

TP13

TP13
P11

P11

TP21

TP21
P21

P21

P5

112
334
556
778
9910
111112
131314
151516
171718
191920
212122
232324
252526
272728
292930
313132
333334
353536
373738
393940

3432-6002LC

3432-6002LC

TP3

TP3

TP4

TP4

P02

P02

P03

P03

TP15

TP15

TP14

TP14

P13

P13

P12

P12

TP23

TP23

TP22

TP22

P23

P23

P22

P22

2

SEG25

4

SEG27

6

SEG29

8

SEG31

10

SEG33

12

SEG35

14

SEG37

16

SEG39

18

SEG41

20

SEG43

22

SEG45

24

SEG47

26

COM30SEG49

28

COM28SEG51

30

COM26SEG53

32

COM24SEG55

34

COM22SEG57

36

COM20SEG59

38

COM18SEG61

40

COM16SEG63

TP5

TP5

TP6

TP6

P30

P30

P31

P31

P03
P02
P01
P00

P13
P12
P11
P10

P23
P22
P21
P20

TP16

TP16
P40

P40

TP24

TP24
P50

P50

TP17

TP17
P41

P41

TP25

TP25
P51

P51

TP7

TP7
P32

P32

TP18

TP18
P42

P42

TP26

TP26
P52

P52

TP8

TP8
P33

P33

TP19

TP19
P43

P43

TP27

TP27
P53

P53

COM0
COM2
COM4
COM6
COM8
COM10
COM12
COM14
SEG0
SEG2
SEG4
SEG6
SEG8
SEG10
SEG12
SEG14
SEG16
SEG18
SEG20
SEG22

P33
P32
P31
P30

P43
P42
P41
P40

P53
P52
P51
P50

VDD

P6

P6

112
334
556
778
9910
111112
131314
151516
171718
191920
212122
232324
252526
272728
292930
313132
333334
353536
373738
393940

TP9

TP9
RESET

RESET

TP10

TP10
VDD

VDD

2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40

3432-6002LC

3432-6002LC

TP11

TP11
VSS

VSS

RESET

COM1
COM3
COM5
COM7
COM9
COM11
COM13
COM15
SEG1
SEG3
SEG5
SEG7
SEG9
SEG11
SEG13
SEG15
SEG17
SEG19
SEG21
SEG23

COM16SEG63
COM17SEG62
COM18SEG61
COM19SEG60
COM20SEG59
COM21SEG58
COM22SEG57
COM23SEG56

SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
SEG37
SEG38
SEG39
SEG40
SEG41
SEG42
SEG43
SEG44
SEG45
SEG46

SEG47
COM31SEG48
COM30SEG49
COM29SEG50
COM28SEG51
COM27SEG52
COM26SEG53
COM25SEG54
COM24SEG55

P7

P7

2

112

4

334

6

556

8

778

10

9910

12

111112

14

131314

16

151516

18

171718

20

191920

22

212122

24

232324

26

252526

28

272728

30

292930

32

313132

34

333334

36

353536

38

373738

40

393940

42

414142

44

434344

46

454546

48

474748

50

494950

52

515152

54

535354

56

555556

58

575758

60

595960

62

616162

64

636364

66

656566

68

676768

70

696970

72

717172

74

737374

76

757576

78

777778

80

797980

AXN1800115S

AXN1800115S

Title

Title

Title

Size Document Number Rev

Size Document Number Rev

Size Document Number Rev

A3

A3

A3

Date: Sheet

Date: Sheet

Date: Sheet

COM7
COM6
COM5
COM4
COM3
COM2
COM1
COM0
SEG0
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8

SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG15
SEG16
SEG17
SEG18
SEG19
SEG20
SEG21
SEG22
SEG23

COM8

COM9
COM10
COM11
COM12
COM13
COM14
COM15

S5U1C6F632T

S5U1C6F632

S5U1C6F632T

2100 circuit

2100 circuit

11Tuesday, March 11, 2008

11Tuesday, March 11, 2008

11Tuesday, March 11, 2008

of

of

of

S5U1C6F632T1100 parts list REV1.0

REVISION/QUANTITY

FEDCBA

REV.

MARK

1

1

1

1

1

1

1

2

2

19 Monolithic ceramic capacitor

1

3

2

3

1

1

1

1

1

1

1

1

1

PARTS NAME

Board SA-0804 Custom

Battery holder BT1 Surface mount BA2032SM TAKACHI

Piezo buzzer BZ1 PS1240P02AT TDK

Connector (pin header) CN1 HIF3E-10PA-2.54DSA(71) HIROSE

Connector (pin header) CN2 HIF3E-30PA-2.54DSA(71) HIROSE

Battery CR2032 Toshiba

Connector CN6 B2B-XH-A J.S.T

Monolithic ceramic capacitor C1,C2 1000pF 2.0*1.25 GRM2195C2A102JA01D Murata

Tantalum capacitor C3,C6 3.3uF/16V 3.2*1.6 F931C335MAA nichicon

C4,C5,C8,C12,C13,C14,C15,C16,C17,C18,C19,C20,C21,C22,
C24,C27,C29,C30,C32 0.1uF 2*1.25 GRM219F11H104ZA01D Murata

Trimmer capacitor C7 3.0 - 10pF 2.5mm * 3.2mm TZY2Z100A001R00 Murata

Monolithic ceramic capacitor C9,C10,C11 10pF 1.6*0.8 GRM1882C1H100JA01D Murata

Tantalum capacitor C26,C28 0.47uF/35V 3.2*1.6 F931V474MAA nichicon

Tantalum capacitor C31,C33,C34 10uF/16V 3.2*1.6 TEESVA1C106M NEC TOKIN

Ceramic resonator X2 4MHｚ EFOSS4004E5 Panasonic

Dip short plug JP1 DSP02-002-431G KEL

Dip short plug JP2 DSP03-003-432G KEL

LCD LCD1 LCD_PANEL Custom

Transistor Q1 SC-59 SSM3J02F Toshiba

Transistor Q2 SC-59 SSM3K02F Toshiba

Resistor R5 10K RK73H2ATTD1002F KOA

Humidity sensor R3 C10M53R SHINYEI

Resistor R4 47K RK73H2ATTD4702F KOA

MATERIAL
LOCATION

STANDARD MODEL No. MAKER

R6,R20,R14,R15,C23,C25 OPEN

1

Thermistor R7 103KT1005 ISHIZUKA

5

Resistor R8,R11,R17,R18,R19 0 Ohm RK73Z2AT KOA

1

Resistor R9 1M RK73H2ATTD1004F KOA

2

Resistor R10,R13 200K RK73H2ATTD2003F KOA

2

Resistor R16,R12 1K RK73H2ATTD1001F KOA

1

Resistor R21 100K RK73H2ATTD1003F KOA

5

Switch SW1,SW3,SW4,SW5,SW6 SKHHAKA010 ALPS

1

Switch SW2 09 10290 01 SECME

1

Check pin TP1 LC-22-G red MAC8

1

Check pin TP2 LC-22-G black MAC8

1

IC U1 22 * 22 S1C6F632 EPSON

1

A/D converter U2 RM-8 AD7466BRM Analog devices

1

Illumination sensor U4 TPS856 Toshiba

1

Pressure sensor U5 SCP1000-D01 VTI

2

Inverter U6,U7 SN74LVC2G04DCKT T.I.

1

Regulator U8 LT1962EMS8-3 LINEAR

1

Resonator X1 32.768KHz MC-306 EPSON TOYOCOM

1

Resistor R1 10M RK73H2ATTD1005F KOA

1

Resistor R2 4.3K RK73H2ATTD4301F KOA

4

Screw FB-0305N Wilco

4

Stud 10mm ASB-310E HIROSUGI

2

Dip short plug socket DSP01-002-430G-9 KEL

1

Connector XHP-2 J.S.T

2

Contact SXH-001T-P0.6N J.S.T

1

Wire AWM116-24(7)-SA RED Junkosha

1

Wire AWM116-24(8)-SA BLACK Junkosha

S5U1C6F632T2100 parts list REV1.0

REVISION/QUANTITY

FEDCBA

REV.

MARK

1
1
1
1
1
7
2
1
1
1
1
3
4
1

PARTS NAME

Board SA-0804 Custom
Piezo buzzer BZ1 PS1240P02AT TDK

Connector (pin header) CN2 HIF3E-30PA-2.54DSA(71) HIROSE
Connector CN4 AXN1800115S Panasonic
Connector CN5 AXN1500115S Panasonic
Monolithic ceramic capacitor C4,C22,C24,C27,C29,C30 0.1uF 2*1.25 GRM219F11H104ZA01D Murata
Tantalum capacitor C26,C28 0.47uF/35V 3.2*1.6 F931V474MAA nichicon
Tantalum capacitor C31,C33,C34 10uF/16V 3.2*1.6 TEESVA1C106M NEC TOKIN
LCD LCD1 LCD_PANEL Custom

Transistor Q1 SC-59 SSM3J02F Toshiba
Transistor Q2 SC-59 SSM3K02F Toshiba
Resistor R8,R11,R17,R18,R19 0 Ohm RK73Z2AT KOA
Resistor R10,R13 200K RK73H2ATTD2003F KOA
Resistor R16,R12 1K RK73H2ATTD1001F KOA

MATERIAL

LOCATION

STANDARD MODEL No. MAKER

R6,R20,R14,R15,C23,C25 OPEN

5

Switch SW1,SW3,SW4,SW5,SW6 SKHHAKA010 APLS

1

A/D converter U2 RM-8 AD7466BRM Analog devices

1

Illumination sensor U4 TPS856 Toshiba

1

Pressure sensor U5 SCP1000-D01 VTI

2

Inverter U6,U7 SN74LVC2G04DCKT T.I.

1

Board SA-0805 Custom

4

Connector P1,P2,P5,P6 3432-6002LCPL 3M

1

Connector P3 3662-6002LCPL 3M

1

Socket P4 50pin AXN1500115S Panasonic

1

Socket P7 80pin AXN1800115S Panasonic

5

Stud 10mm ASB-310E HIROSUGI

5

Screw FB-0305N Wilco

International Sales Operations

AMERICA

EPSON ELECTRONICS AMERICA, INC.

2580 Orchard Parkway,
San Jose, CA 95131, USA
Phone: +1-800-228-3964 FAX: +1-408-922-0238

EUROPE

EPSON EUROPE ELECTRONICS GmbH

Riesstrasse 15, 80992 Munich,
GERMANY
Phone: +49-89-14005-0 FAX: +49-89-14005-110

ASIA

EPSON (CHINA) CO., LTD.

7F, Jinbao Bldg., No.89 Jinbao St.,
Dongcheng District,
Beijing 100005, CHINA
Phone: +86-10-6410-6655 FAX: +86-10-6410-7320

SHANGHAI BRANCH

7F, Block B, Hi-Tech Bldg., 900 Yishan Road,
Shanghai 200233, CHINA
Phone: +86-21-5423-5522 FAX: +86-21-5423-5512

SHENZHEN BRANCH

12F, Dawning Mansion, Keji South 12th Road,
Hi-Tech Park, Shenzhen 518057, CHINA

Phone: +86-755-2699-3828 FAX: +86-755-2699-3838

EPSON HONG KONG LTD.

20/F, Harbour Centre, 25 Harbour Road,
Wanchai, Hong Kong
Phone: +852-2585-4600 FAX: +852-2827-4346
Telex: 65542 EPSCO HX

EPSON TAIWAN TECHNOLOGY & TRADING LTD.

14F, No. 7, Song Ren Road,
Taipei 110, TAIWAN
Phone: +886-2-8786-6688 FAX: +886-2-8786-6660

EPSON SINGAPORE PTE., LTD.

1 HarbourFront Place,
#03-02 HarbourFront Tower One, Singapore 098633
Phone: +65-6586-5500 FAX: +65-6271-3182

SEIKO EPSON CORP.
KOREA OFFICE

50F, KLI 63 Bldg., 60 Yoido-dong,
Youngdeungpo-Ku, Seoul 150-763, KOREA
Phone: +82-2-784-6027 FAX: +82-2-767-3677

SEIKO EPSON CORP.
SEMICONDUCTOR OPERATIONS DIVISION

IC Sales Dept.
IC International Sales Group

421-8, Hino, Hino-shi, Tokyo 191-8501, JAPAN
Phone: +81-42-587-5814 FAX: +81-42-587-5117

S5U1C6F632T1/T2
(SVT6F632)

Hardware Manual

SEM ICO NDU CTO R O PER ATI ON S D IVI SION

EPSON Electronic Devices Website

Document code: 411665301

First Issue March 2009 in JAPAN

Revised February 2010 in JAPAN

D